KR101143791B1 - Purifier with sterilizing apparatus - Google Patents

Abstract

The present invention, the filter unit; and the water tank unit for storing the water passing through the filter unit; And a discharge unit for discharging the water in the water tank unit, wherein the water purifier includes a circulation sterilizer which draws a part of the water stored in the water tank and heat sterilizes it and then resupply it to the water tank unit. The water purifier of the present invention is continuously sterilized by a predetermined portion of the water stored in the tank according to the above configuration and then resupplied to prevent contamination of the stored water by bacteria even if the storage time of the water is long. can do.

Description

Water Purifier with Sterilizer {PURIFIER WITH STERILIZING APPARATUS}

The present invention relates to a water purifier, and more particularly, to a water purifier having a means for sterilizing water stored in the water purifier.

In recent years, various types of water purifiers have been widely used in homes as living standards have improved and the importance of drinking water has increased. In general, water purifiers are devices that filter harmful substances such as foreign substances or heavy metals contained in water by physical and chemical methods. When the water purifier is classified into a form, there is a direct type directly connected to the faucet and a storage type to pass water through a filter by putting it in a container. When the water is classified according to the principle or method, it is natural filtration, direct filtration, ion exchange resin, Distillation, reverse osmosis and the like.

The water purifier includes a filter unit for filtering contaminants from raw water containing pollutants, a water tank unit for storing purified water past the filter unit, and a water purifier stored in the water tank unit. Can be divided into outlets. The water tank unit includes a water tank for storing purified water, a cold water tank for storing cold water, and a hot water tank for storing hot water.

By the way, while the purified water is stored in the tank, the microorganisms can grow and contaminate the water. In particular, the possibility of microbial growth in the water inside the reservoir where the clean water at a room temperature is stored increases, so it is necessary not only to suppress the inflow of microorganisms from the outside, but also to disinfect and disinfect the water stored in the reservoir. have. However, it is inconvenient for the user to periodically clean and sterilize the inside of the reservoir, and furthermore, it is difficult for users to clean the reservoir regularly because of the structure of the water purifier.

An object of the present invention is to provide a means for disinfecting the water stored in the water purifier, specifically, to take out a part of the water stored in the water storage tank of the water purifier, and then heat sterilize it to provide a means for supplying again to the water tank. For the purpose of

The water purifier of the present invention, for the above purpose, the filter unit; and a water tank unit for storing the water passing through the filter unit; And a discharge unit for discharging the water in the water tank unit. The water purifier includes a circulating sterilizer which draws a part of the water stored in the water tank unit and heat-sterilizes it and then supplies it back to the water tank unit.

By the above configuration, the present invention is to continue to sterilize the water stored in the tank portion by a certain portion, so that the storage time of the water is prolonged to prevent contamination of the water stored by the bacteria.

The water tank unit, the water tank for storing the water passing through the filter unit; A cold water tank communicating with the reservoir and storing cold water; And a hot water tank communicating with the water storage tank and storing hot water, wherein the water drawn out to the circulation sterilization device is water stored in the water storage tank, and the circulation sterilization device includes water drawn from the water tank unit. A circulation passage provided for resupply; A heating unit provided on the circulation passage to heat water; And a cooling unit provided on the circulation passage to cool the water passing through the heating unit. It includes.

The heating unit is an electric heater using an electrical resistance or the heating unit is a portion formed to surround the outer wall of the hot water tank as part of the circulation passage.

The cooling unit may be a part of heat-exchanging with the atmosphere to cool the water as part of a circulation passage provided in the rear part of the heating unit. In this case, the cooling unit may be provided in a downstream portion of the heating unit as a plurality of branching passages branched from the circulation passage.

Alternatively, the cooling unit may be a portion formed to surround the outer wall of the cold water tank as part of the circulation passage.

Water passing through the cooling unit is introduced into the water storage tank or introduced into the cold water tank, and the circulation passage includes a pump for circulating water.

The circulation flow path includes a first vertical flow path formed in a vertical direction, and the heating part is an electric heater using an electrical resistance provided in the first vertical flow path, and is disposed at a position higher than the water storage tank when viewed in the vertical direction of the water purifier body. .

The circulation passage further includes a second vertical passage formed in a vertical direction, and the cooling unit is provided in the second vertical passage. The cooling unit provided in the second vertical flow passage may be a portion for cooling water by heat exchange with the atmosphere or a portion formed by enclosing a portion of the second vertical flow passage with a cooling coil.

The circulation of the water through the circulation passage is made continuously, the water in the heating unit is preferably heated to a temperature of 70 degrees for 30 seconds.

According to the above configuration, since the water stored in the water purifier can be sterilized continuously by a predetermined amount, the user does not need to directly sterilize the water inside the water purifier, which is convenient. There is no fear that the water stored in the reservoir will not be contaminated with bacteria, etc., so that the consumer's reliability is improved.

Hereinafter, with reference to the accompanying drawings, a water purifier having a sterilizing means according to an embodiment of the present invention.

1 is a view showing the configuration of a water purifier according to an embodiment of the present invention, Figure 2 is a diagram conceptually showing the circulation sterilization apparatus of FIG. Referring to Figure 1, the water purifier 10 according to an embodiment of the present invention, the filter unit 20 for purifying water and the water tank unit 30 for storing the purified water and the purified water of the water tank unit 30 It is configured to include a discharge portion 40 for discharging.

The filter unit 20 purifies raw water introduced from a water source such as tap water, a reservoir, or the like with purified water, and includes at least one filter 21 and the filter 21. The filter head 27 is formed with a fastening part 23 is fastened and fixed, and a filter connection part 25 for supplying purified water passing through the filter 21 to the water tank part. On the other hand, the pipe connecting the water source 11 and the filter unit 20, the pre-filter to remove the contaminants that are supplied to the filter unit 20, which can reduce the efficiency of the filter 21 ( 26 and the filter unit 20 to determine the state of the raw water supply valve 24 and the pre-filter 26 for controlling the supply of raw water to the filter unit 20 and the replacement time of the pre-filter 26. Flow rate sensing unit 22 for measuring the flow rate of the raw water supplied may be further provided.

The water tank unit 30 includes a water storage tank 31 in which purified water is stored while passing through the filter unit 20, and a cold water tank 33 and a hot water tank 35 communicating with the water storage tank 31, respectively. do. The reservoir 31 has a float valve 34 that is opened and closed by buoyancy when the stored purified water reaches a predetermined amount, and a water level sensor 31a that detects the stored stored water amount. The cold water tank 33 is integrally coupled with the water storage tank 31 to the lower portion of the water storage tank 31, and the purified water supply so that the purified water is supplied by communicating the two spaces with the partition plate 32 partitioning the two spaces. The hole 32a is formed.

The hot water tank 35 is provided separately from the water storage tank 31 and receives purified water from the water storage tank through the purified water supply pipe 36. In addition, the purified water supply pipe 36 may be further provided with a hot water amount control valve 36a for controlling the amount of purified water supplied to the hot water tank 35. The amount of cold water stored in the cold water tank 33 is controlled by the float valve 34, and the amount of hot water stored in the hot water tank 35 is controlled by the hot water amount control valve 36a.

Here, a cooling coil 33b is wound around the outer circumference of the cold water tank 33 to cool the purified water, and a heater 35b is wound around the outer circumference of the hot water tank 35 to heat the purified water. In order to improve the heat exchange rate, the cooling coil 33b and the heater 35b may be disposed in the cold water tank 33 and the hot water tank 35. The cold water tank 33 and the hot water tank 35 may further include temperature sensors 33a and 35a respectively detecting temperatures of cold water and hot water stored therein.

On the other hand, the reason why the hot water tank 35 is provided separately from the water storage tank 31 and the cold water tank 33 is that the heat generated by the heater 35b affects the cold water tank 33 or the water storage tank 31. In order to reduce the cooling efficiency of the cold water tank 33, or to prevent the growth of contaminants in the purified water stored in the water storage tank (31).

In the following description of the water purifier according to the present invention, since the configuration of the filter unit, the reservoir, the cold water tank and the hot water tank is common, a detailed description thereof will be omitted in the description of each embodiment.

1, a circulation sterilization apparatus 50 according to an embodiment of the present invention, shown as A provided on one side of the reservoir 31 is shown. The circulation sterilization apparatus 50 is a circulation passage for providing a passage through which the heating unit 51 draws a part of the water stored in the reservoir 31 and heats it, and communicates the heating unit and the reservoir with each other ( 52,53). The circulation passage 55 through which the water passing through the heating unit flows is provided with a cooling unit 54 for cooling the heated water. In addition, a pump 52 that provides power to continuously circulate a constant amount of water through the circulation passages 52 and 53 is disposed at a predetermined position among the circulation passages 52 and 53.

The circulation sterilization apparatus according to the present invention is preferably continuously operated to sterilize a certain amount of water, and the amount of water circulating through the circulation passage can be controlled by using the speed of the pump 55 and the like, Preferably, the amount of water passing through the circulation passage for about 48 hours is such that the total amount of water stored in the reservoir 31. In other words, after calculating the volume inside the reservoir 31 and the cross-sectional area of the circulation passage, and operating the circulation sterilizer for about two days, the amount corresponding to the amount of water stored in the reservoir passes through the circulation sterilizer. Adjust the speed of the pump to This is about one week after the bacteria are stored in the water stored in the reservoir tank in consideration of the safety of the water in the reservoir tank for about two days to go through the circulation sterilizer once. In addition, the heating unit 51 is preferably heated to a temperature of about 70 ℃ and for a time of about 30 seconds. That is, the water introduced into the heating unit 51 in the reservoir 31 is heated for about 30 seconds to be a temperature of about 70 ℃ discharged from the heating unit 51. Experiments show that sterilization is sufficient at this temperature and heating time.

Since the water passing through the heating unit has a higher temperature than the water stored in the water storage tank, the water passing through the heating unit is cooled to the temperature of the water storage tank 31 by using the cooling unit 54 provided in the circulation passage 53, and then into the water storage tank. Resupply. 3 to 6 show various embodiments of the cooling unit in the circulation sterilization apparatus according to the present invention.

3, in the circulation sterilization apparatus 50, the cooling unit 54 is a portion of the circulation passage 53 through which the water passing through the heating unit 51 passes. The cooling unit 54 in this embodiment heats the air surrounding the circulation passage 53, thereby cooling the water inside the cooling unit. In FIG. 3, the cooling unit 54 has a diameter slightly larger than that of the circulation passage 53, but is not necessarily limited thereto, and may be formed to have the same diameter as the circulation passage. In addition, in order to increase the heat transfer efficiency between the cooling unit and the atmosphere, the larger the area where the outer circumferential surface of the cooling unit contacts with the atmosphere is better, the larger the cross-sectional area is.

In view of this point, FIG. 4 illustrates a shape in which the circulation passage 53 is branched into a plurality of pipes. The cooling unit of the circulation sterilization apparatus of FIG. 4 is a plurality of branch passages 56 branched from the circulation passage 53. The diameter of each of the branch flow paths 56 is preferably small enough to allow sufficient heat transfer with the surrounding air.

3 to 4 illustrate the shape in which the water heated and cooled in the circulation sterilizer 50 is supplied again to the reservoir 31, but is not necessarily limited thereto. That is, as shown in FIG. 5, a part of the water drawn out from the reservoir 31 may be heated and cooled in the circulation sterilizer 50 and then supplied to the cold water tank 33. This is because even if the water passing through the circulation sterilizer is not cooled to the temperature of the reservoir after being heated, there is an advantage that can be sufficiently cooled by the cooling coil surrounding the cold water tank by entering the cold water tank. to be. In addition, since the cold water tank 33 and the water storage tank 31 communicate with each other, the water introduced into the cold water tank may be introduced into the water storage tank again.

Referring to another embodiment of the present invention shown in Figure 6, the circulation sterilization device 60 is a heating unit 61 for drawing and heating a part of the water stored in the reservoir 31, the heating unit and the reservoir communicate with each other Circulation passages 62 and 63 for providing a passage through which the water is circulated, a pump 65 for circulating the water in the circulation passage, and a cooling unit 64 for cooling the heated water. In the present embodiment, the cooling unit 64 is a portion formed to surround the outer wall of the cold water tank as part of the circulation passage 63. That is, the water heated by the heating unit 61 flows while covering the outer wall of the cold water tank 33 in which the cold water is stored while passing through the cooling unit 64, and at this time, heat exchange occurs to cool. Then, the water cooled through the cooling unit 64 is supplied back to the reservoir (31). In this case, although not shown, the water passing through the cooling unit 64 may be configured to flow into the cold water tank 33 instead of the water storage tank, and the reason thereof is the same as described above, and thus a detailed description thereof will be omitted.

Figure 7 shows a circulating sterilization apparatus 70 according to another embodiment of the present invention. The circulation sterilization apparatus 70 according to the present embodiment provides a heating unit 71 which draws out a part of the water stored in the reservoir 31 and heats it, and communicates the heating unit and the reservoir with each other to provide a passage through which the water circulates. The circulation passages 72 and 73, a pump 75 for circulating the water in the circulation passage, and a cooling unit for cooling the heated water are provided.

In the present embodiment, the heating part 71 is a part formed to surround the outer wall of the hot water tank 35 as part of the circulation passage 72. Since the hot water tank maintains a high temperature state by the heating means provided therein, the heating part 71 of the circulation passage surrounds the outer wall of the hot water tank 35 to receive heat and heat the water therein. At this time, since the hot water tank is usually at a high temperature of about 80 degrees to 85 degrees, it is possible to secure a temperature of about 70 degrees, which is a temperature required by the heating part 71.

In addition, the water heated in the heating unit 71 is cooled while passing through the cooling unit and then supplied again to the reservoir. In this case, the shape of the cooling unit may be a method of exchanging heat with surrounding air, and the circulation passage may surround the cold water tank. As described above, the shape of the cooling unit may be applied to the present embodiment.

Figure 8 shows the appearance of a water purifier equipped with a circulating sterilizer according to another embodiment of the present invention. The circulation sterilization apparatus 80 according to the present embodiment provides a heating unit 81 which draws out part of the water stored in the water storage tank 31 and heats it, and communicates the heating part and the water storage tank with each other to provide a passage through which water is circulated. Circulation flow paths 82 and 83 and a cooling unit 84 for cooling the water heated by the heating unit are provided. However, the present embodiment does not include a pump for circulating water in the circulation passage.

The circulation flow paths 82 and 83 are formed in a vertical direction and have a first vertical flow path 82 having the heating part 81 and a second vertical path formed in the vertical direction and provided with the cooling part 84. The flow path 83 is included. Here, the vertical direction means the up and down direction based on the water purifier main body. The first vertical channel and the second vertical channel are configured to communicate with each other at upper ends thereof so that water can move from the first vertical channel to the second vertical channel.

The heating unit 81 is an electric heater using an electric resistance provided in the first vertical flow path, and is disposed at a position higher than the water storage tank 31 in the vertical direction of the water purifier body. The cooling unit 84 provided in the second vertical flow path is a portion for cooling water by heat exchange with the atmosphere.

In this embodiment, the water inside the circulation sterilizer is automatically circulated using the density difference according to the temperature difference of the water instead of the pump. When the water is heated in the heating unit 81 to increase the temperature of the water, the density of the water is lowered and the heated water rises upward. Therefore, water is moved upward in the first vertical flow path 82. In addition, the water cooled in the cooling unit 84 becomes lower in temperature and denser, and moves downward in the second vertical flow path 83. Through such a process, the circulation sterilizer 80 according to the present embodiment becomes unnecessary to configure a separate pump or the like to move water.

Figure 9 shows a circulating sterilization apparatus according to another embodiment of the present invention. The circulation sterilization apparatus shown in this embodiment is the same as the configuration of the circulation sterilization apparatus shown in FIG. 8, but only the configuration of the cooling unit 84 is different. In this embodiment, the cooling coil extension 33c formed by extending a part of the cooling coil 33b for cooling the cold water tank 33 surrounds the second vertical flow path 83 of the circulation sterilization device 80. To cool the water inside. That is, the cooling part 84 of this embodiment is a part which the said cooling coil extension part 33c wraps as a part of the said 2nd vertical flow path 83. As shown in FIG. In this embodiment, there is an advantage to increase the cooling efficiency by cooling the water heated in the circulation sterilizer using a cooling coil surrounding the cold water tank.

1 is a view showing the configuration of a water purifier according to an embodiment of the present invention,

2 is a view showing a circulating sterilization apparatus according to the present invention,

3 to 6 show various embodiments of the cooling unit in the circulation sterilization apparatus according to the present invention,

Figure 7 shows an embodiment of the heating unit in the circulation sterilization apparatus according to the present invention,

8 to 9 show the appearance of the water purifier with a circulating sterilizer according to another embodiment of the present invention.

Claims (17)

A water tank unit including a filter unit and a water tank in which water passing through the filter unit is stored; And a discharge part for discharging water from the tank part. Water purifier, characterized in that it comprises a circulating sterilization device to take out the water stored in the reservoir and heat sterilization and re-supply to the reservoir. The water tank according to claim 1, A cold water tank communicating with the reservoir and storing cold water; And And a hot water tank communicating with the water storage tank and storing hot water. According to claim 2, The circulation sterilization apparatus, A circulation passage provided to retake water drawn out from the reservoir into the reservoir; A heating unit provided on the circulation passage to heat water; And And a cooling unit provided on the circulation passage to cool water passing through the heating unit. The method of claim 3, wherein And said heating unit is an electric heater using electric resistance. The method of claim 3, wherein And the heating unit is a portion formed to surround an outer wall of the hot water tank as part of the circulation passage. The method according to claim 4 or 5, The cooler is a water purifier, characterized in that the cooling water by heat exchange with the atmosphere as part of the circulation passage provided in the downstream of the heating unit. The method according to claim 4 or 5, The cooling unit is a plurality of branch passages branched from the circulation passage is provided in the downstream of the heating unit is a water purifier, characterized in that the water heat exchange with the atmosphere to cool the water. The method of claim 6, Water passing through the cooling unit, the water purifier, characterized in that introduced into the reservoir or through the cold water tank. The method according to claim 4 or 5, And the cooling unit is a portion formed to surround an outer wall of the cold water tank as part of the circulation passage. The method of claim 9, Water passing through the cooling unit, the water purifier, characterized in that introduced into the reservoir or through the cold water tank. The method of claim 3, wherein The said circulating flow path is equipped with the pump for circulating water, The water purifier characterized by the above-mentioned. The method of claim 3, wherein The circulation passage includes a first vertical passage formed in a vertical direction, The heating unit is a water purifier, characterized in that the electric heater using the electrical resistance provided in the first vertical flow path. 13. The method of claim 12, And said heating portion is provided at a position higher than said water storage tank as viewed in the vertical direction. The method of claim 13, The circulation passage further includes a second vertical passage formed in the vertical direction, And the cooling unit is provided in the second vertical flow path. The method of claim 14, The cooling part provided in the said 2nd vertical flow path is a part which cools water by heat exchange with air | atmosphere. The method of claim 14, And the cooling unit is a portion formed by enclosing a portion of the second vertical flow path with the cooling coil. The method of claim 3, wherein The circulation of water through the circulation passage is made continuously, Water in the heating unit is a water purifier, characterized in that heated to a temperature of 70 ℃ for 30 seconds.

Images